Recordings of multiunit sympathetic activity were made in muscle branches of the peroneal nerve in 22 healthy subjects at rest in recumbent position. Nerve activity was quantitated in terms of burst incidence (number of pulse synchronous sympathetic bursts per 100 heart beats or per min). In a separate session, 4-45 months later, blood was drawn from an antecubital vein for noradrenaline analysis. Both sympathetic activity and plasma concentrations of noradrenaline varied widely between subjects and both parameters increased with age. There was a significant positive correlation between a subject's level of sympathetic activity and his plasma concentration of noradrenaline. It is suggested that overflow of transmitter from sympathetic terminals in muscles contributes significantly to plasma levels of noradrenaline at rest.
The putative influence of the thermoregulatory state on skin blood-flow responses to various stimuli was studied in 17 healthy subjects exposed to different ambient temperatures. Skin blood flow was monitored by laser Doppler flowmeters and photoelectrical pulse plethysmographs. Stimuli included painful intraneural electrical stimulation (INS) in the median nerve at the wrist, mental stress, arousal stimuli and deep breaths. Intraneural electrical stimulation and mental stress were accompanied by virtually identical changes in skin blood flow, warm subjects responding with cutaneous vasoconstriction whereas cold subjects responded with vasodilatation. Similar but less pronounced responses were obtained with arousal stimuli and single deep breaths. The data indicate that the thermoregulatory state profoundly influences the extent and direction of various cutaneous vasomotor reflex responses. Furthermore, there were differences between responses in hands and feet, suggesting a spatial organization of vasomotor control.
The relationship between resting levels of muscle sympathetic nerve activity (MSA) and blood pressure is a matter of controversy. Body weight has recently been identified as an independent determinant of muscle sympathetic discharge, which may have influenced previous studies focused on MSA and mechanisms of hypertension. In the present study, we measured resting MSA and plasma insulin levels in 18 obese (body mass index, 32 +/- 4 kg/m2) (mean +/- SD), middle-aged (52 +/- 6 years), hypertensive (155 +/- 11/97 +/- 8 mm Hg) subjects and 16 age- and body mass index-matched normotensive control subjects. In the postabsorptive state, resting MSA was similar in the hypertensive and normotensive groups (43 +/- 4 versus 39 +/- 3 bursts per minute, 69 +/- 5 versus 64 +/- 5 bursts per 100 heart beats, P = NS) (mean +/- SEM) and did not correlate with either systolic or diastolic blood pressure. Weak but significant positive correlations were found between resting MSA and both fasting insulin levels (P < .05) and body mass index (P = .05) in hypertensive but not normotensive subjects. There was a strong positive correlation between fasting insulin and body mass index in both normotensive subjects and the entire study group (P < .005). Fasting insulin and body mass index correlated with diastolic blood pressure (P < .05) in the entire study group. In conclusion, a relationship between fasting insulin, body mass index, and blood pressure was confirmed, whereas only a weak correlation was found between MSA and fasting insulin in hypertensive but not normotensive subjects. The fact that MSA was similar in the two groups argues strongly against augmented MSA being important for the maintenance of hypertension, at least in middle-aged, obese men.
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